首页 /研究 /Real-Time Object Detection for Autonomous Solar Farm Inspection via UAVs
PERCEPTION

Real-Time Object Detection for Autonomous Solar Farm Inspection via UAVs

Javier Rodríguez-Vázquez, Inés Prieto-Centeno, Miguel Fernández-Cortizas, David Pérez-Saura, Martín Molina, Pascual Campoy

发表年份
2024
引用次数
20
访问权限
开放获取

摘要

Robotic missions for solar farm inspection demand agile and precise object detection strategies. This paper introduces an innovative keypoint-based object detection framework specifically designed for real-time solar farm inspections with UAVs. Moving away from conventional bounding box or segmentation methods, our technique focuses on detecting the vertices of solar panels, which provides a richer granularity than traditional approaches. Drawing inspiration from CenterNet, our architecture is optimized for embedded platforms like the NVIDIA AGX Jetson Orin, achieving close to 60 FPS at a resolution of 1024 ×1376 pixels, thus outperforming the camera's operational frequency. Such a real-time capability is essential for efficient robotic operations in time-critical industrial asset inspection environments. The design of our model emphasizes reduced computational demand, positioning it as a practical solution for real-world deployment. Additionally, the integration of active learning strategies promises a considerable reduction in annotation efforts and strengthens the model's operational feasibility. In summary, our research emphasizes the advantages of keypoint-based object detection, offering a practical and effective approach for real-time solar farm inspections with UAVs.

关键词

Object detectionMinimum bounding boxSoftware deploymentComputer scienceReal-time computingAgile software developmentArtificial intelligenceSegmentationObject (grammar)Systems engineering

相关论文

查看 PERCEPTION 分类全部论文